Systems thinking in the laboratory classroom
Systems thinking in the laboratory classroom
Systems Thinking[1] has been well established in most STEM subjects before chemistry picked up on this topic. Meanwhile, Green Chemistry[2] and Sustainable Development Goals[3] have been introduced to chemistry curricula in the previous millennium. Yet, they are connected[4] and this link paves the way to incorporating systems thinking into the chemistry classroom. The chemistry laboratory is an integral part of chemistry and chemical engineering education. This location and mode of education is precious in many ways (e.g. timewise, financial commitment, infrastructure, teaching workload, health and safety implications) and rightly the trend pushes towards using a laboratory class to focus on dedicated chemistry and transferable practical skills[5].With a fragmentation into shorter teaching components, i.e. individual practicals in a laboratory class, it was found inherently more challenging to forge a unit that combines teaching laboratory skills, highlighting progressive sustainable development, and kindling the learners’ interest in the bigger picture: systems thinking – the impact of a given “chemistry” on societal, cultural, environmental, economic and other related aspects. Here, discussion will be examining the challenges encountered by this approach, and how some of these have been overcome, and using this forum to solicit ideas how to best meet remaining issues.
Logothetis, Thomas A.
9f42a28f-0c36-4d47-a137-7a317acb0237
15 July 2025
Logothetis, Thomas A.
9f42a28f-0c36-4d47-a137-7a317acb0237
Logothetis, Thomas A.
(2025)
Systems thinking in the laboratory classroom.
50th World Chemistry Congress, Kuala Lumpur Convention Centre, Kuala Lumpur, Malaysia.
14 - 19 Jul 2025.
1 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Systems Thinking[1] has been well established in most STEM subjects before chemistry picked up on this topic. Meanwhile, Green Chemistry[2] and Sustainable Development Goals[3] have been introduced to chemistry curricula in the previous millennium. Yet, they are connected[4] and this link paves the way to incorporating systems thinking into the chemistry classroom. The chemistry laboratory is an integral part of chemistry and chemical engineering education. This location and mode of education is precious in many ways (e.g. timewise, financial commitment, infrastructure, teaching workload, health and safety implications) and rightly the trend pushes towards using a laboratory class to focus on dedicated chemistry and transferable practical skills[5].With a fragmentation into shorter teaching components, i.e. individual practicals in a laboratory class, it was found inherently more challenging to forge a unit that combines teaching laboratory skills, highlighting progressive sustainable development, and kindling the learners’ interest in the bigger picture: systems thinking – the impact of a given “chemistry” on societal, cultural, environmental, economic and other related aspects. Here, discussion will be examining the challenges encountered by this approach, and how some of these have been overcome, and using this forum to solicit ideas how to best meet remaining issues.
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Abstract-TALogothetis
- Author's Original
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Published date: 15 July 2025
Venue - Dates:
50th World Chemistry Congress, Kuala Lumpur Convention Centre, Kuala Lumpur, Malaysia, 2025-07-14 - 2025-07-19
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Local EPrints ID: 507232
URI: http://eprints.soton.ac.uk/id/eprint/507232
PURE UUID: a3e35f15-f09b-406c-9ead-032a82f484bd
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Date deposited: 02 Dec 2025 17:59
Last modified: 03 Dec 2025 02:41
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